/* * recorder.c: The actual DVB recorder * * See the main source file 'vdr.c' for copyright information and * how to reach the author. * * $Id: recorder.c 2.2 2009/01/23 15:33:37 kls Exp $ */ #include "recorder.h" #include "shutdown.h" #define RECORDERBUFSIZE MEGABYTE(5) // The maximum time we wait before assuming that a recorded video data stream // is broken: #define MAXBROKENTIMEOUT 30 // seconds #define MINFREEDISKSPACE (512) // MB #define DISKCHECKINTERVAL 100 // seconds // --- cRecorder ------------------------------------------------------------- cRecorder::cRecorder(const char *FileName, tChannelID ChannelID, int Priority, int VPid, const int *APids, const int *DPids, const int *SPids) :cReceiver(ChannelID, Priority, VPid, APids, Setup.UseDolbyDigital ? DPids : NULL, SPids) ,cThread("recording") ,recordingInfo(FileName) { // Make sure the disk is up and running: SpinUpDisk(FileName); ringBuffer = new cRingBufferLinear(RECORDERBUFSIZE, TS_SIZE * 2, true, "Recorder"); ringBuffer->SetTimeouts(0, 100); cChannel *Channel = Channels.GetByChannelID(ChannelID); int Pid = VPid; int Type = Channel ? Channel->Vtype() : 0; if (!Pid && APids) { Pid = APids[0]; Type = 0x04; } if (!Pid && DPids) { Pid = DPids[0]; Type = 0x06; } frameDetector = new cFrameDetector(Pid, Type); patPmtGenerator.SetChannel(Channel); fileName = NULL; index = NULL; fileSize = 0; lastDiskSpaceCheck = time(NULL); fileName = new cFileName(FileName, true); recordFile = fileName->Open(); if (!recordFile) return; // Create the index file: index = new cIndexFile(FileName, true); if (!index) esyslog("ERROR: can't allocate index"); // let's continue without index, so we'll at least have the recording } cRecorder::~cRecorder() { Detach(); delete index; delete fileName; delete frameDetector; delete ringBuffer; } bool cRecorder::RunningLowOnDiskSpace(void) { if (time(NULL) > lastDiskSpaceCheck + DISKCHECKINTERVAL) { int Free = FreeDiskSpaceMB(fileName->Name()); lastDiskSpaceCheck = time(NULL); if (Free < MINFREEDISKSPACE) { dsyslog("low disk space (%d MB, limit is %d MB)", Free, MINFREEDISKSPACE); return true; } } return false; } bool cRecorder::NextFile(void) { if (recordFile && frameDetector->IndependentFrame()) { // every file shall start with an independent frame if (fileSize > MEGABYTE(off_t(Setup.MaxVideoFileSize)) || RunningLowOnDiskSpace()) { recordFile = fileName->NextFile(); fileSize = 0; } } return recordFile != NULL; } void cRecorder::Activate(bool On) { if (On) Start(); else Cancel(3); } void cRecorder::Receive(uchar *Data, int Length) { if (Running()) { int p = ringBuffer->Put(Data, Length); if (p != Length && Running()) ringBuffer->ReportOverflow(Length - p); } } void cRecorder::Action(void) { time_t t = time(NULL); bool Synced = false; bool InfoWritten = false; while (Running()) { int r; uchar *b = ringBuffer->Get(r); if (b) { int Count = frameDetector->Analyze(b, r); if (Count) { if (!Running() && frameDetector->IndependentFrame()) // finish the recording before the next independent frame break; if (Synced |= frameDetector->IndependentFrame()) { // start with first independent frame if (!InfoWritten) { if (recordingInfo.Read()) { if (frameDetector->FramesPerSecond() > 0 && recordingInfo.FramesPerSecond() != frameDetector->FramesPerSecond()) { recordingInfo.SetFramesPerSecond(frameDetector->FramesPerSecond()); recordingInfo.Write(); } } InfoWritten = true; } if (!NextFile()) break; if (index && frameDetector->NewFrame()) index->Write(frameDetector->IndependentFrame(), fileName->Number(), fileSize); if (frameDetector->IndependentFrame()) { recordFile->Write(patPmtGenerator.GetPat(), TS_SIZE); fileSize += TS_SIZE; int Index = 0; while (uchar *pmt = patPmtGenerator.GetPmt(Index)) { recordFile->Write(pmt, TS_SIZE); fileSize += TS_SIZE; } } if (recordFile->Write(b, Count) < 0) { LOG_ERROR_STR(fileName->Name()); break; } fileSize += Count; t = time(NULL); } ringBuffer->Del(Count); } } if (time(NULL) - t > MAXBROKENTIMEOUT) { esyslog("ERROR: video data stream broken"); ShutdownHandler.RequestEmergencyExit(); t = time(NULL); } } }